Issue 70, 2014

Principles and mechanisms of photocatalytic dye degradation on TiO2 based photocatalysts: a comparative overview

Abstract

The total annual production of synthetic dye is more than 7 × 105 tons. Annually, through only textile waste effluents, around one thousand tons of non-biodegradable textile dyes are discharged into natural streams and water bodies. Therefore, with growing environmental concerns and environmental awareness there is a need for the removal of dyes from local and industrial water effluents with a cost effective technology. In general, these dyes have been found to be resistant to biological as well as physical treatment technologies. In this regard, heterogeneous advanced oxidation processes (AOPs), involving photo-catalyzed degradation of dyes using semiconductor nanoparticles is considered as an efficient cure for dye pollution. In the last two decades TiO2 has received considerable interest because of its high potential as a photocatalyst to degrade a wide range of organic material including dyes. This review starts with (i) a brief overview on dye pollution, dye classification and dye decolourization/degradation strategies; (ii) focuses on the mechanisms involved in comparatively well understood TiO2 photocatalysts and (iii) discusses recent advancements to enhance TiO2 photocatalytic efficiency by (a) doping with metals, non-metals, transition metals, noble metals and lanthanide ions, (b) structural modifications of TiO2 and (c) immobilization of TiO2 by using various supports to make it a flexible and cost-effective commercial dye treatment technology.

Graphical abstract: Principles and mechanisms of photocatalytic dye degradation on TiO2 based photocatalysts: a comparative overview

Article information

Article type
Review Article
Submitted
04 Jul 2014
Accepted
04 Aug 2014
First published
05 Aug 2014

RSC Adv., 2014,4, 37003-37026

Principles and mechanisms of photocatalytic dye degradation on TiO2 based photocatalysts: a comparative overview

A. Ajmal, I. Majeed, R. N. Malik, H. Idriss and M. A. Nadeem, RSC Adv., 2014, 4, 37003 DOI: 10.1039/C4RA06658H

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